T. Paul
Johns Hopkins University
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Publication
Featured researches published by T. Paul.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1994
M. Acciarri; A. Adam; O. Adriani; S. Ahlen; J. Alcaraz; G. Ambrosi; E. Babucci; L. Baksay; A. Baschirotto; R. Battiston; W. Baur; A. Bay; Gy.L. Bencze; B. Bertucci; M. Biasini; G. M. Bilei; G.J. Bobbink; J. Boissevain; M. Bosetti; M. L. Brooks; W.J. Burger; J. Busenitz; C. Camps; M. Caria; G. Castellini; R. Castello; B. Checcuccl; A. Chen; T.E. Coan; V. Commichau
Abstract The design and construction of the silicon strip microvertex detector (SMD) of the L3 experiment at LEP are described. We present the sensors, readout electronics, data acquisition system, mechanical assembly and support, displacement monitoring systems and radiation monitoring system of the recently installed double-sided, double-layered SMD. This detector utilizes novel and sophisticated techniques for its readout.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1995
M. Acciarri; A. Adam; O. Adriani; S. Ahlen; J. Alcaraz; G. Ambrosi; H. Andersson; V. Andreev; E. Babucci; L. Baksay; A. Baschirotto; R. Battiston; A. Bay; Gv.L. Bencze; B. Bertucci; M. Biasini; G. M. Bilei; G. J. Bobbink; M. Bosetti; V. Brigljevic; M. L. Brooks; W.J. Burger; J. Busenitz; C. Camps; M. Caria; G. Castellini; B. Checcucci; A. Chen; E. Choumilov; V. Choutko
Abstract The status of the Silicon Microvertex Detector (SMD) and its installation into the LEP-L3 experiment are presented, highlighting novel features and sophisticated techniques. Preliminary results based on 1993 data are given and compared with Monte Carlo predictions, to understand the detector performances and its tracking capabilities.
Nuclear Physics B - Proceedings Supplements | 1993
O. Adriani; S. P. Ahlen; G. Ambrosi; E. Babucci; G. Barbagli; A. Baschirotto; R. Battiston; A. Bay; G. Bencze; P. Béné; B. Bertucci; M. Biasini; G. M. Bilei; J. Boissevain; M. Bosetti; M. L. Brooks; J. Busenitz; W.J. Burger; C. Camps; M. Caria; G. Castellini; R. Castello; B. Checcucci; A. Chen; W.Y. Chen; T.E. Coan; V. Commichau; D. DiBitonto; S. Easo; P. Extermann
Abstract A report on the status of the construction of the L3 Silicon Microvertex Detector is presented here. The detector will consist of two double sided AC coupled silicon layers equipped with rφ and z readout with an expected intrinsic resolution of ≈ 6 μ m and ≈ 25 μ m respectively. A description of the detector with its mechanical support, alignment system and readout electronics is presented.
nuclear science symposium and medical imaging conference | 1994
A. Adam; S. Ahlen; G. Ambrosi; E. Babucci; A. Baschirotto; R. Battiston; A. Bay; G.Y. LBencze; B. Bertucci; M. Biasini; G. M. Bilei; G. J. Bobbink; M. Bosetti; M. L. Brooks; J. Busenitz; W.J. Burger; C. Camps; M. Caria; G. Castellini; B. Checcucci; A. Chen; T.E. Coan; V. Commichau; D. DiBitonto; P. Duinker; S. Easo; P. Extermann; E. Fiandrini; A. Gougas; K. Hangartner
A silicon microvertex detector (SMD) has been commissioned for the L3 experiment at the Large Electron-Positron colliding-beam accelerator (LEP) at CERN. The SMD is a 72,672 channel, two layer barrel tracker that is comprised of 96 ac-coupled, double-sided silicon detectors. Details of the design and construction are presented. >
